Tube drawing machine



ecv 1941; Y N. H. WOLF 2,264,688

TUBE DRAWING MACHINE Filed Feb. 2, 1940 9 she ets sh eet I a f q a S4 Q Q E H ga 25 I l] 3 Q a i V N H l \n a 0'0 12121310 I *5 WITNESSES:

I ATTORNEYS;

@m E 8 Z w v m NQII A 6% v N@ MNH, @NH Mm 4 m W L; i 8H an m Hfiw m 6 s I! [I EH g I g E R 2, En NH 3n V o 2 m EH .8 an .l| E W mm w Em i EH z A 9 Q 1mg Q 5am hnmfi. Q m W Filed Feb.' 2, 1940 N H WOLF TUBE DRAWING MACHINE Dec. 2, 1941.

- WITNESSES.-

Dec. 2, 1941. N. H. WOLF TUBE DRAWING MACHINE Filed Feb. 2, 1940 9 Sheets-Sheet 4 I- r l:

INVENTOR:

m m m T A N. H. WOLF TUBE DRAWING MACHINE Filed Feb. 2, 1940 9 She ets-Sheet.5

iZ J i5 JVL;

I N V EN TOR: immniimz WITNESSES:

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A TTORNEYS;

- Q/MW Dec. 2, 1941. V N, LF 2,264,688

TUBE DRAWING MACHINE Filed Feb. 2, 1940 9 Sheets- Sheet e WITNESSES: INVENTOR:

A TTORNEYS.

Dec. 2, 1941. N. H. WOLF TUBE DRAWING MACHINE Filed Feb. 2, 1940 I 9 Sheets-Sheet 7 H Vn 0 .N T [17W a NW M Dec. 2, 1941. H, WOLF TUBE DRAWING MACHINE 9 Sheets-Sheet 8 Filed Feb. 2, 1940 FIG '6. Jim 1m 32%? AZKW Mr W

J 00 7 Q m mim m INVENTOR: Nil/than 77C "613 ATTORNEYS.

W l TNESSES: 925% w.

' N. H. WOLF TUBE DRAWING MACHINE Filed Feb. 2, 1940 9 Sheets-Sheet 9 Ffi a0.

A TTORNEYS.

Patented 2, 194 1;

V UNITED STATES: PATENT OFFICE 'runn miim mm Nathan 11. won, Norristown. Pa. Application Fbl'llll! 2, 1940, Serial N- 318,910 9 Claims. (01. 205-7) This invention has reference more particularly. although not exclusively, to machines for cold drawing ductile metal tubular blanksso as to form them into finished seamless tubing of predetermined diameter and wall thickness; the primary object being to provide a machine in which the. successive stages of drawing, rolling and stripping are efiected in each cyclic-operation of said machine.

Another object is the provision of a machine of the type indicated in which the operations of drawing or pushing, rolling and finishing the tube are effected during the forward movement of the mandrel, while said mandrel is stripped from the finished tubing during the return movement.

Still another object of this invention is the pro- I vision in a tube drawing machine of the typified character of a mandrel with a novel form of shank adapted to extend through the drawing die, the rolls, finishing die and stripper, thus allowing the drawing tongs to grip said mandrel for the drawing'of the tube. V

- A further object isto so arrange and hold the rolls in definite angular relation to'.ensure com-- plete and uniform rolling'of the tube.

Another object is to provide an improved tube drawing machine equipped with means that positively ensures the finished tube having the de-' sired bore and wall thickness irrespective. of its cross-sectional formation. I

Still another object is to furnish a tube drawing machine of the above typified species in which the grooves of the respective series of rolls areso shaped as to ensure spreading of the tube, intermediate their points of active contact, and operating pressure; with resultant expansion of the diameter of. the tube intermediate the points of contact of the rolls to aid thesubsequent stripping of said tube from the mandrel. I

"A further aim of this invention is to provide a tube drawing machine which is substantially automatic in action, or can' be eiilciently served by a single operator, as compared with known machines that call for the attention of at least three or more, whereby the overhead cost is proportionately reduced.

Another object is to provide a tube drawing machine equipped with means enabling the operatconcluding claims more this invention.

arrangements of cooperative means for eifecting production of seamless drawn tubes in a cyclic operation as hereinafter. disclosed, and illustrated 'by the accompanying nine sheetsof drawings of.

I typical embodiments, wherein corresponding reference characters are used to designate similarparts throughout the several views: while the features of novelty.

In the drawings: Fig. 1 is a broken plan view of a typical tube drawing machine including the subject-matter of III-III in Fig. 1.

4 is a vertical section on the-plane IV-IV of Figs. 1. ,2 and 3. drawn to a scale corresponding with that of the latter figure. 18. 5 is a similar section on the also indicated in Figs. 1. 2 and 3.

Fig. 6 is a broken side elevation showing the stripper mechanism approaching the "forward plane V-V,

limits of its movement with the tube stripping tong device in" the inactive position.

Fig. 7 is a fragmentary side view of a portion of the preceding figure, but illustrating the draw-- ing tong device actively located in respect to the mandrel.

said figure.

ing pressure of the respective rolls to be manually or automatically controlled.

Still further objects, with ancillary advantages of this invention, will more fully appear, as the nature thereof ismore .fully explained: said invention consisting substantially in certain novel features of construction, the combinations and Fig. 8 is a similar view to the preceding with the parts in a diil'erent position and a minor portion broken out to better show a safety device hereinafter fully explained.

of Fig. 9- and looking towards the left-hand thereof.

Fig. 11 is a vertical section on the plane XI-XI of Fig. 9, but looking towards the right-hand of Fig. 12 is a plan section, taken approximately as indicated by the arrows {XII-X1]: in Fig. 9. 1

Fig. 13, Sheet 2, is a detail section on the plane xm-m in Fig. 6. Fig. .14 is a vertical section showing the mandrel draw-head by dot-and-dash lines approachin: the die head, and in full linwthe position it particularly recite the drawing rolls.

Fig. 17 is a pers tive view of a lower roll bearing.

Fig. 18' is a perspective view of an upper roll bearing for coaction with that of the preceding Fig. 19, Sheet 2. is an elevation showing the relative positions of four sets of tube drawingrolls placed at forty-five degree angles.

Fig. 20 is a detail view illustrative of .how. under compression, a tube isdiametrically expanded at right-angles to the axes of rotation of the respective coacting pairs of drawing rolls.

Fig. 21 is a broken plan view of a modified form of the invention, wherein the tube-forming mandrel is actuated by a hydraulic broaching-mechanism.

Fig. 22 is a broken side elevation as viewed from below Fig. 21. a

Fig. 23 is a detail view, partly in section. showing how the mandrel is coupled to the broaching-mechanism push-and-puli or reciprocatory head, taken approximately as indicated by the arrows XXIII}DCIII in Fig. 21.

Fig. 24 is a vertical section on the plane XXIV-XXIV of Fig. 22.

Fig. 25 is a similar section on the plane xxv -xxv of F18. 22.

Fig. 26 is a fragmentary plan view illustrative of a further modification of the invention, wherein the tube forming rolls are powerdriven in synchronized relation with the forward travel of the forming mandrel.

Fig. 27 is a side elevation, with parts broken out. of the preceding figure, and drawn to corresponding scale for clearer identification of like I Fig. 28 is a plan section, taken as indicated by the arrows XXVIII in Fig. 2'1.

- Fig. 29 is a vertical section on the plane XXIX-XXIX of Fig. 26.

, Figs. 30, 31 and 32, are fragmentary sectional views on the planes XIDL-XXXJCXXI-XXXI and XXXII-XXXII, in Fig. 26. respectively.

In the following detailed description of the embodiments of this invention iliustratedin the accompanying nine sheets of drawings, specific terms will be employed for the sake of clarity, but it is to be understood that such terms are used-in a descriptive sense only and not for purposes of limitation. Each specific term is intended to include all technical equivalents capable of serving in a similar capacity to accomplish an analogous purpose.

Referring first to Figs. 1-20. inclusive, the embodiment of this invention therein illustrated comprises a table comprehensively designated by the numeral i, d including draw and return benches 2, 2, respectively; said benches being rigidly supported in alignment by end up,- rights or heads 4, I with laterally-spaced intermediate uprights and a centrally located die head structure I, later on more fully described. The draw-bench 2, as best understood from Fig. 10, is of inverted somewhat channel-section with the side walls inwardly-angled to define support- 7 ins members I for secure attachment to the top view of a preferred ,by means ass-sass fianges I of the intermediate uprights i, and end heads I, I at It, as well as to transverse bearers ll across the diehead structure]. The web or top portion of the draw-bench 2 is longitudinally recessed to provide a track If, for the-active flight of the draw chain It. with upper flanking recesses or tracks is for a purpose later set forth. The draw chain it is power driven by means of a sprocket ll fast on a shaft is iournaled in a bearing ll on the end head 4. said shaft beingconnected to a standard type gear-reducer ll of a fiexible coupling ll, while 2| designates a suitable motor for imparting rotation to the sprocket shaft il in an obvious manner. The draw chain i2 is also trained over an idler sprocket 2|, on a shaft 22 iournaled in ad- Justable bearings 22, in the inner end of the bench 2 proximate the die head structure 1, whereby provision is made for taking-up any slack" which may develop in said chain; while the return fiight of the chain it is sustained by a channel section track 2| secured intermediate the head 4, uprights 6 and die head structure I.

Preferably mounted along one side of the draw-bench 2 is a suitable track or channel 25, braced at intervals by struts 26, which affords guidance for the active fiight of a "return" chain 21. trained about 'a sprocket 28, fast on a drive shaft 22 journaled in a bearing 20 from the die head structure 1, Figs. 3 and i, said shaft being connected to a gear reducing mechanism Si, by a flexible coupling 22, driven by a .suitable motor 32 operatin in a reverse direction to the motor 20 hereinbefore referred to. The return chain 21 is also trained about an idler sprocket 24 on a stub-shaft 25, projecting laterally from the end head 4.

Adapted for progression along the draw-bench upper'tracks It in one direction by the'chain i2 and in the other direction by the chain 21, is the tong device comprehensively designated as 2|. see

Figs. 1, 2, and 9-12 to better advantage. This tong device 26 comprises a carriage 21 having bearings 28 for the axles 22 of wheels 40 progressible along the draw-bench tracks is; as well as an oscillatable shaft ll having reversely-directed angularly-relater ,dogs 42, 42 secured thereto by pins 44, or other appropriate means. The dog 42 is provided at its free coaction with any one or another of the conventional spacer bushings 40 in the draw chain it, for a purpose later on clarified. The dog 42 has connected thereto at l1. one end of a spring es, the

remote extremity whereof is anchored. by an eyebolt 42, to the transverse portion I of an inverted stirrup ll, rigid with the adjoining end of the carriage 21; while 52 designates a handle whereby the hook it can be manually engaged with or disengaged from the chain is, if found desirable or necessary. The dog 42 is similarly provided with a hook end 52 for coaction with any one or another of the spacer bushings It included in the return chain 21, and it will be clearly apparent, on reference 'to Fig. 9, that when the dog 42 operatively coacts with the draw chain II. .the

"dog 42 will be inactive or disposed horizontal as shown by the dotted-line-indication in said figure, in opposition to the spring 48 and vice versa, when the dog 42 operatively engages the return chain .21 the dog 4: will be raised to a horizontal posiprojection 12' for coaction with an inclined cut end with a hook it for 30, see Fig. 14;

The tong device 86 also embodies a hollow head I! rigid wit the carriage 01, said head having O p sed tape g walls 50, Flg.-12,-and associated gripper jaws preferably made of hardened steeland grooved at 58 to flrmly grip the reduced shank 59 of a conventional tube'forming mandrel 60. The gripper jaws 51 are a sliding flt in the head 55 and are so tapered in respect to the head rotative in a central hole I00 through the bearing hanger 00 with a retaining washer IN and cotter-pin I02, whereby turning of the screw e1 walls 58 that as they move outwardly, relative to 1 said head, the parts 50 close-in on the mandrel shank Is evenly; while a pivotal device consisting of hand lever 6|, with a T-head 02 for engagement with the jaws I1, is fulcrumed by a cross-' arm at in suitable bearings 04 on top of the head II and functions to concurrently move said jaws whenrocked clockwise, as clearly understandable from Fig. 9,.more particularly.

Referring now to the die head structure I.

which is preferably, although not essentially,

made in one piece of hollow rectangular forma-' tion with transverse ledges 65, Fig. 3, in the upper part for seating reception ofa special head 08, shownto best advantage in Fig. 16, designed to eifects adjustment-of the hanger II and its associated drawing roll 09 relative .to the other drawing roll to sustained by the main member 02. Obviously the respective pairs of coactive drawing rolls 61-10 are formed with grooves I02, as

shown; or they may be ball bearings of approved design with the outside race of suflicient thickness to permit forming of such grooves in the shape of the tubesto be drawn and rolled. Incidentally it is to be noted while there are shown four bearing units 02 placed at forty-five degree angles relative to each other, a greater or lesser number of such units may be used provided they are, preferably, placed at equal angles so as to ensure uniform rolling or drawing of the tube operated on.

Attached, as by counter-sunk screws I04, Figs. 3 and 4, to the inner upper wall of the die-head structure 1, is a plate I05 having a recess I00 in which the finishing die I0! is fltted, said die -embodying inner and outer flares I00, I00, respectively; while said plate has a clearance aperture H0 concentric with that of the die I01. The

house and hold in rigid position the several sets of drawing rolls 01, 60, 09 and 10, Figs. 8 and 19. The head 86 embodies a base II, Fig. 16, with spaced side walls 12, I2 projecting vertically with respect to said base, the wall is having a .rec-

and apertured lugs III for connection, by hinge pins N2, of the sectional stripper blocks or gates H3, and whicharesubject to theinfluence of tangular cut-out ll at one upper. corner with an associated inwardly-positioned stepped lug II therebelow, while a correspondingly located complemental lug I6 projectsinwardly from the opposite wall 12. -Staggeringly related chock-likespaced lugs 11, It with diagonally positioned rectangular lugs 19, 80 extend inwards respect from the lower angular'portions of the hea 68; while spaced and opposing L-shaped lugs 8| project partially outwards from the medial end portion of'the base II. The stepped 'lugs 15, 10,

, chock-like and associated rectangular lugs I1,-

18, 10 and 80, as well as the L-shaped lugs 0i. respectively afford rigid support for the drawing roll bearing. units comprehensively designated 82.

On reference to Figs. 4. 5, 17 and 18, and, in.

view of the fact that all of the bearingsare identical, one only'will be described in detail for the sakeof brevity. Each bearing unit 02 preferably comprises a hardened steel main member 03, Fig.

having bores 85 for snug reception of a similar material axis pin", on which freely rotates one of'a pair of drawing rolls, as for example; while spaced apertures 09 for reception-of an axis pin- 00 on "which freely rotates the companion drawing roll 89. Thebearin'g II is positionally retained.

in adjustable engagement between the corner socketed springs Ill coacting with the'notched ends I I! of said blocks, which provides the necessary tension to close the stripper blocks as soon as the end of a drawn tube- I I0 is released from,

coaction therewith, see Fig. 15, and to hold said tube securely against further longitudinal movement while-the mandrel 00, is stripped therefrom on its return movement. It is to be noted the stripper blocks I I 0 are taperingly flared atlll,

' a suitable plate H9 which, in turn, is bored out at 17, of channel-section, with the spaced walls 04- 1 Figs. 4, 14 and-15, to slide over the drawn tube I I0 during its forward formative movement.

At the opposite end of the die-head structure I there is secured, as by counter-sunk screws III,

I20 to -receive the initial drawing die I2I, having inner and outer flares I22, I20, respectively; while said plate has a clearance oriflce I20 in alignment with the axis of the die I2I.

Referring now to the means for operating the mandrel 00 as illustrated in Figs. 1, 2, 6-8 and 13.

it will be seen that the return bench 2 is provided at the-outer end with a bearing I25 fora drive shaft I20, having fast thereon a sprocket I21 about which is trained the mandrel return chain I20, the active flight whereof is guided in a longiposts '01 of the main member 00 by plates 0| at- I tached to the latter as by screws 92, Fig. 5, en-- gaged in holes 03 provided for the purpose; said plates serving to prevent endwise movement of the hanger 08 and axis pins 00, 00, in an apparent manner. A cap-plate 90 is secured to the top of the corner posts 01 by screws 85 for example, engaged in correspondingly-threaded holes 00', Fig. '17, in the main bearing member posts 01. said plat'ehaving a threaded here as in which is engaged an adjusting screw 01 provided with turning means as, and having a plainextension 'tudinal track I2, in the top of the bench 3, Figs.

6 and13, ;with flanking upper tracks I0, said bench corresponding in cross-section with the draw-bench 2 hereinbefore described. The return chain I20 is also trained about an idler sprocket I29 rotative on a shaft I30 in adjustable bearings Ill for taking up any "slack which may arise, while the return flight of said chain is I guided along a channel section track 24' mounted l as before set forth in connection with the draw chain It. The drive shaft I20 is connected with a a gear reducing mechanism'tl', by a flexible coupling 02, driven by a suitable motor 23' operating in a reverse direction to the motor 20. Adapted for sliding progression by the chain I20 along the bench upper tracks I4 is the mandrel return drawing tong device I32, said device being soniewhat in the form of an angle-block with spaced inclines I00, at the sidesof a vertical wall I. This wall I has a slot I" for passage of the mandrel screw threaded end 00', which is fltted ,3, with "the frusto-conical 80. The tong device I82 is formed with aforked byapin I81,ad08 I88 end in which is pivoted, for coaction with the chain I28, as later on further amplified, said dog sustaining a laterally directed shaft I88 which carries a freely rotative grooved-wheel I40. This wheel I48 rides on a side rail I4I. fulcrumed at I42 to stepped links I48, I44 in turn pivoted at I48 to the return bench capacity for limited angular movement between rigid stops I48 andarcuate straps I41 attached to the said bench by securing devices I48. The link I44 is preferably provided with a handle extension I48 whereby the rail Hi can be manually raised or lowered in an obvious manner; or, said rail can by a vertically projecting pin I80 thereon engaging a horizontal pin I8I extending laterally from the vertical wall I84 of the tong device I82. The dog I88 is also provided with a through pin I82 for the walls be automatically actuated for coaction with or riding-up spaced taper blocks I88, fixed on the top of the return bench 8, said pin serving as a safety means for automatically releasing the dog I88 from the return chain I28, if for any reason it'should not have been so done by elevation of the rail I; while it will be clearly understood that said the chain I28 on forward movement of the latter when the draw" is made and vice verse, to engage said hook withsaid chain on return movement of the mandrel 88 during strippage of the drawn tube II8 therefrom.

Referring now to Figs. 21-25, inclusive, ,which illustrate a modified form of the invention whererail normally functions to disengage the. hook end I84 of the dog I88 from show 'a'preierred means for power actuation of the drawing rolls 81-10, it will be observed that each bearing unit 82 for said rolls diflers somewhat from the previously "I, I12, the former of which has fast thereon a gear I18 with the hub thereof serving as a spacer I88,- as wellas a reduced screwthreaded extension affording rigid attachment. as by a lock nut I14, for one of'the drawing roll 81-10. On the other hand, the shaft I12 is similarly'providedwith a gear I18 in mesh with the gear I18, as well as having the complemental by a lock nut I14, but this shalt I12 is extended outwards and hasfixed thereon a bevel gear I18, whereby said shaft is power driven, as later explained. The; respective bearing units 82 are positionally held in forty-five degree relationship by appropriately shaped end partitions I11 trans: verselyof the head structure I18, so as to ensure rigid mounting thereof. At each end of the head structure I18 and 'interiorly thereof, there are provided spaced upper and lower bearings I18 I88, respectlvelypthelatter of which I80 afford Journal support for a drive-shaft. I8 I, and the former,si.milar support for paralleling counter shafts I82, I82. The drive-shaft I8I is operain the mandrel 88 is operated bya pressure actu- I ated push-and-pull mechanism, all parts having equivalents in the preceding description are designated by like reference characters. in order to, obviate unnecessary repetitive explanation. In this form of the invention, it will be remarked that the mandrel 88 is reciprocated relative to the die-head structure 1 by-hydraulic means comprehensively designated I88 in Figs. 21'and 22. This means comprises a hydraulic cylinder I88having pressure connections I81, I88, and a hollow cylinder ram or plunger I88, arranged for reciprocation in accordance with known practice, said plunger having a head I80 with a suitable recess tively coordinated, by a gear I88 fast thereon, and meshing gears I84 on the counter-shafts I82, I82, and said drive-shaft 'has also keyed there on a sprocket I88, about whibh is trained an endless chain belt I88 in turn engaging asprocket I81 on the power shaft I88.of an electric motor I88, supported on a shelf I80 in the lower part of the structure 1.. It is to be noted the drive and counter shafts I8I, I82, I82 are all housed within but do not pass'throughthe end-wallsof the head structure I18, while they rotatively pass through the respective partitions I11. On the countera shaft I82 'is,a sprocket 8i operatively coordinated I80 for coupler-reception of, and coaction with,

whereby thelatte ,is moved forward for the tube drawing operation and retracted during the stripping operation. The cylinder I88 is conveniently sustained on the bench 8 in bearings I82 rigidly attached thereto. murder to support the man-' nd I8I of the mandrel 80,'

drel 88, with the tube 8 to be drawn, a suitable 4 support I88 having an arcuate upper end I84 is sustained by a cross-rod I88 pivoted between the side walls 8'. of the bench 8, while said support is provided with a counter-balance I88 tending to normally influence the support I88 into vertical position, but permitting said support to swing forwardly and rearwardly for passage of the plunger head I80 as it approaches and recedes from the die-head structure 1. Thedrawn tube II8, as it passes beyond'the structure 1. is conveniently supported in an angle section guide I81,

' in turn sustained by rigid bearings I", Film.

and 28, mounted on the draw or forward bench 2'. The means described, it will be noted; will be found highly advantageous and simple for drawing comparatively light gage tubes '8.

Turning now to Figs. ss-as, inclusive, which "by a chain drive I82 with a sprocket I08 fast on a short shaft I84, journaled in bearings I88 provided for the purpose, in the head structure I18;

and said shafthas secured thereon a bevel gear. I08 in mesh with'the similar-gear I18 on the end of the stub-shaft I12, whereby the vertically rota'ting drawing rolls 81 are driven through the mechanism above described. On the other hand, the following forty-five degree angle rolls 88, 88 aredirectly driven by their respective bevel gears I18 meshing similar gears I81. I 88 on the countershafts I82, I82, Figs. 30 and 81; whereas the horizontally rotating rolls 18 are similarly driven by a further-bevel gear I88 on the counter-shaft I82, see Fig. 32. Thus it .willbe readily apparent that all of the respective drawing rolls 81-18, in this form of the die-head structure are power operated in contradistinction to being frictionally.

1-20 and 2l -28, the drawing of the ,tube II8 is effected by idler rollers 81-10; whereas 'with' the means 'of Figs. 28-32, the drawing operation is effected by power-driven rolls 81-10, said means being substitutable for the die-head structure 1 in either of -'the first and second mentioned forms of said invention. Still furthen the several motors 20, 88 and 88'; are controlled by respectively associated. switches I28, I88 and I88", through conductors 288 connectable by said" described structure in that it comprises complemental spaced walls I88- having apertures I18therethrough for stub shafts outer grooved I drawing roll 81-10 fixed thereon I switches with a" source of electric power, not

. drel 30. Particular attention is'also directed to the provision of the mandrel 30, with a shank from the machine in accordance with known practice. Incident to full retraction of the mandrel 30 as aforesaid, it can be manually or other- 39 of sufiicient length for initial passage through the drawing die I2 I, rolls 31-10, the finishing die I01 and the automatically opening-and-closing stripper gates 3 for grippage by the drawing tong device 33, or push-and-pull connection to the plunger head I30 before actual drawing of the tube II3 commences. It is also noteworthy that the respective rolls 31 10 expand the tube H3 on the mandrel 30, in a direction at right angles to that oftheir compressive eflect iust sufiicient to permit easy releasing of said mandrel during the stripping operation and also without any scoring of the tube.

'The operation of the tube drawing machine may be briefly described as follows. Assuming that a tube I I3 to be drawn has previously had one end headed in and prepared for drawing, is placed on a mandrel 30 of the desired diameter, or one conformable with the inside bore of the tube, with such headed-mend I I3'-Fig. 9- engaging the mandrel shoulder deflned by the shank 33, said shank is entered through the drawin die I2I as aforesaid, rolls 31-10, finishing die I01 and stripper gates II3 until its leading end enedges the pivoted lever 3|, Fig. '14, or .with the end of said shank between the stripper gates I I3.

The drawing tong device 33 is next moved toward the erid head 4 of the bench 2 and by gripping the mandrel shank 53 moves the mandrel 3 forward under pull of the chain I3. As the tube H0 is drawn through the rolls 31-10, it'is varywise swung outward or upward, forapplication thereto of the next tube to be drawn, by oscillation of said mandrel aboutits end 30' in the drawing-tong slot I33. After the new tube to be drawn has been applied, thetong device I32,

together with the mandrel 30 is moved forward by the operator until the mandrel shank 33- passes through and beyond the finishing die I01 I and its free end engages the pivotal lever 3i and rocks the latter into' vertical abutment against the forward wall of the hollow head 33.-

The dog 43 having been placed in position for coaction with the retum-chain 21.under action of the spring 43, said chain will-return the tong device 33 to its position for commencing the a When the mandrel 30 reaches the gripper Jaws ingly and progressively worked and reduced until I it passes through the finishing die I 01 and stripper gates 3, which latter remain open until the terminal end of said tube has moved past said gates, As the tube II3passes beyond the compressive influence of the last rolls 10, and the grip of the finishing die I01, the tong device 33 moves forward at a speed in excess of that of the chain I3 due to its sudden release from "pull thereby. This sudden re ease or Jump" frees the hook end 43 of the dog 2 from engagement with next tube-drawing operation, upon the operator closing the switch I33" to start the motor-33.

31' and opens'the' latter, as before set forth, the dog 33 is disengaged from the return-chain 21 and the tong device 33 stops momentarily with the mandrel 30 between said jaws, whereupon the operator swings the lever 6i counterclockwise to free the Jaws 31 for snap grippage about v the mandrel 30, whereupon the tong device 33 moves forward under the pull of the dog 42 and tube drawing chain I3 for drawing the second mentioned or succeeding tube operated on. .The return-chain 21 is-stopped by the operator opening the switch I33" as the second mentioned tube H3 enters the initial drawing die I2I for working reduction of its external diameter. I

Concurrent with the jump" hereinbefore referred'to as caused by freeing of the'dog 42, the grip of the Jaws 31 on the mandrel shank 3| is released: while the pin I52 will move the handled link .I from the full line position shown in'Fig. 6 to the dot-and-dash location in the same figure, thus allowing the hook end I33 of the chain I3, whereupon thespring' 43 reacts and snaps the dog 43 intoposition for engagement with the return chain '21.

In other words, upon release of the end of the mandrel shank. 33 from forward pull by the head 33 and dog 42, the latter having been disengaged from the draw chain I3, as previously explained, the tong device 33 will come to is definite stop. On the other hand, the tong device I32 having tripped the stepped link- I, under the pull of the mandrel 30, and shifted to the dot-and-dash line position at the right-hand of Fig. 6. will commence to move in the reverse direction as similarly indicated in Fig. 14, and thereby strip the finished pipe III H3 and pull ofthe return chain- I23. As the pin I32 reaches and ascends the taper blocks I33, Fig. 8, the dog I33 becomes released from the chain I23, thereby stopping the tong device I32.

the dog into engage. the mandrel-return chain I 23, whereby the drawing. tong device I32 is returned to its starting position as hereinbefore explained, whereupon the stripper gates 3 close under recoil action of the springs 'II4.

The drawing pull is now oil the tong device 33, whereupon the said device is moved in the reverse direction under pull of the return chain 21, whilethe gates I I3 being closed eifect concurrent strippage or the tube 3 from the manfrom said mandrel, under closure of the gates from further return movement. The full return 'or the tong device I32 draws the mandrel shank 33 from between the series or drawing rolls 31-10, and the initial working reducing die I2I, as well as out of the die-head structure '1, whereupon the finished tube 3 is removed 7 drel 30, in the manner obvious from thepreceding description, whereupon said mandrel is the next tube to From the foregoing it is thought the merits I now ready for application of be drawn.

and advantages -of the subject-matter involved herein will be fully appreciated by those conversant with the art and, while preferred embodiments have been illustrated and described, many changes may be made without departing .from the spirit of the invention. Accordingly,

it is desired to include all such changes as reasonably come within the scope of the following claims.

Having. thus described my invention, I claim: 1. In a machine for drawing tube the combination of axially aligned draw and return benches with intervening die-head assembly for compressively-reducing the cross-sectional area of the tube, said assembly including a reducing die, aligned equi-angularly relatedpairs of compressor rolls for varyingiy .and pro- 6 gressivelyreducingthe tube. ingtofreethetubefromthe said rolls'also servmandrel by spreading action intermediate their points 0! active the over-all length of the die-head assembly; a

tong device movable along the draw bench with l0 a means for gripping the mandrel extension outer end; individual power-actuated prosi'essins mechanisms on the draw bench for, respectively, drawing the mandrel and a sustainedtube through the die-head structure and for returnins said tons device to itsinitial position after the finished tube is removed from the mandrel a second tongdevice movable along the return bench and connectableto the mandrel end; pro-' grossing mechanismpn the return bench for the last mentioned tong device to eifect stripping the mandrel from the tube during thereturn stroke of said mandrel; and power -oper' ated means for actuating, the respective pro gressing mechanisms in cyclic relation during each complete operation of the machine. l 2. The combination of claim'l, further characterized'by a counterweighted normally vertical pivotally mounted in the-rear the pressure actuator means and the die head structure. said member embody ing an arcuate upper end for axial support of the mandrel and tube in alignment with the axis ot the pressure actuator reciprocatory plunaer during the drawing operation. and said member also,

' by swinging movement in tho plane of the mono drel sxis, accommodating free passage of the plunger head forwardly and rearwardly thereover. Y

- sx'rns combination of claim further char acterised by an angle section guide in advance of the die head structure for aligned supp rt of'the mandrel and finished tube as it emerges from said head structure, and also serving'for-similar support of the tube during its strippage,from themandrel. 4. The combination of claim 1, wherein-the equi-angularly-relatcdcompressor rolls are all operatively -coordinated. and "power' actuated mechanism operates ssidrolls in conformity with the progressive speed of the mandrel. r 5. The combination of claim 1. wherein the; die-head assembly comprises base with spaced vertical walls, one of said walls havinga cut-out at one upper corner, opposing inner steppeddutgg 55 one of said shafts.

associated with said cut-out. staggerinsly-rela in advance of the -ject outwards from the base tionlugs, andspacedopposing angularlugspromedial end part or the remote from the cut-out aforesaid; chock-like. angular lugs. as well as the L-section and stepped lugs with the cut-out, respectively afford rigid support for the compressor roll units in equi-angular relation.

.. whereby the hanger 8. 'Ihe'combination of claim 1, wherein each compressor roll unit comprises a channel-section paralleling comer-posts projecting 's'ection flange portions. axially alignedboresthrough saidfiangeportioniorre-z 'ceptio'n of an axis pin, a channel-section hanger bearing slidably' iits between the corner posts aforesaid withaseeonliaxispinsustsinedthereby in parallel with-the first mentioned axis pin.- compressor rolls are freely rotative on the respective axis pins, means 'whereby'said pins are restrained against axialmovement, and means bearing is adjustable relative to the channel-section member for vary n the degree of compression exertable by the coasting compressor rolls.

,' '7. The combination ofclaim l, wh'erein each compressor roll unit comprises a channel-section member with paralleling 'corner-postsprojecting aligned beyond the section flange portions sxially bores through said nanse portion for reception of 1 nel-sectionflange and post endwise movement, a cap plate is secured screw axially therethroush'.

cludes a plain extension rotati an axis pin. a channeltion hanger bearing slidably nts between the corner posts aforesaid with a second axis pin sustained thereby in parallel with the first mentioned-ammpin; compressor rolls are freely rctative on the respective' axis pins, plate members attached to the chanouter walls restrain th'e axis pins and hanger .bearing .iagainst of the corner posts with an adjuster and said screw inl courledtothe hanger bearing for adjustment'of the latter relairee ends tive tothe ohannel-sectionmemben- -8. The combination of claim 1, wherein the die head assembly-includes aminset initial drawing die with inner and outer flares. a similarly inset finishing die likewiseihaving inner..and outer flares; and opposing {spring influenced gatesvareassociated with.the"flnis hing die. said gates having outwardiv-pqnversins-flsres in di-.

chock-like l'usB with diagonally opposing L-secrect alignment with therspectivea es.

9. The combinat mifi' 48 1 d wherein: meshing gears on miter geared shafts coordinate the several compression 'rolls for rotation iii-unison, and-a power actuator is operatively connected to News a. wow. 

